论文信息 - Alteration of cellular metabolism by consecutive fed-batch cultures of mammalian cells.

Alteration of cellular metabolism by consecutive fed-batch cultures of mammalian cells.

The metabolism of myeloma cells was altered to reduce lactate production in consecutive fed-batch cultures. The glucose concentration was maintained at low levels (0.28-0.55 mM) by employing a dynamic nutrient feeding method based on on-line measurement of the oxygen uptake rate (OUR) to estimate the metabolic demand of the cells. This strategy has been previously reported to be applied to cultures of hybridoma cells, in which the production of lactate was significantly reduced by thus maintaining the glucose concentration at low levels. However, for this cell line, a single fed-batch culture was not sufficient to alter the cellular metabolism, even at a glucose concentration of 0.28 mM. Two consecutive fed-batch cultures were employed to ensure that the cells were cultivated under a low glucose concentration for a sufficiently prolonged period of time to allow a switch of the cellular metabolism from a glycolytic (high lactate production) to oxidative (low lactate production) state.

[1] Lubiniecki. Large scale mammalian cell culture technology. , 1990, Bioprocess technology.

[2] W. S. Hu,et al. Monitoring and control of animal cell bioreactors: biochemical engineering considerations. , 1990, Bioprocess technology.

[3] D K Robinson,et al. Characterization of a recombinant antibody produced in the course of a high yield fed‐batch process , 1994, Biotechnology and bioengineering.

[4] Weichang Zhou,et al. High viable cell concentration fed‐batch cultures of hybridoma cells through on‐line nutrient feeding , 1995, Biotechnology and bioengineering.

[5] J H Luong,et al. On-line monitoring of glucose in mammalian cell culture using a flow injection analysis (FIA) mediated biosensor. , 1997, Biotechnology and bioengineering.

[6] Weichang Zhou,et al. On‐line characterization of a hybridoma cell culture process , 1994, Biotechnology and bioengineering.

[7] H. R. Zielke,et al. Glutamine: a major energy source for cultured mammalian cells. , 1984, Federation proceedings.

[8] Effect of insulin on a serum‐free hybridoma culture , 1995, Biotechnology and bioengineering.

[9] M. Cornblath,et al. Reciprocal regulation of glucose and glutamine utilization by cultured human diploid fibroblasts , 1978, Journal of cellular physiology.